Trait and perceived environmental competitiveness in achievement situations Article
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Elliot, A. J., Jury, M. and Murayama, K. (2018) Trait and perceived environmental competitiveness in achievement situations. Journal of Personality, 86 (3). pp. 353367. ISSN 14676494 doi: https://doi.org/10.1111/jopy.12320 Available at http://centaur.reading.ac.uk/70074/
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RUNNING HEAD: Competitiveness
Trait and perceived environmental competitiveness in achievement situations
Andrew J. Elliot1, Mickael Jury2, and Kou Murayama3
1University of Rochester
2ESPE Lille Nord de France
3University of Reading
Corresponding author: Andrew J. Elliot, 488 Meliora Hall, Department of Clinical and Social
Sciences in Psychology, University of Rochester, Rochester, NY 14620 USA Email:
Abstract
Objective: Trait and perceived environmental competitiveness are typically studied
separately, but they undoubtedly have a joint influence on goal pursuit and behavior in
achievement situations. The present research was designed to study them together. We tested
the relation between trait and perceived environmental competitiveness, and tested these
variables as separate and sequential predictors of both performance-based goals and
performance attainment. Methods: In Studies 1a (n=387) and 1b (n=322), we assessed
participants’ trait and perceived environmental competitiveness, as well as third variable
candidates. In Study 2 (n=434), we sought to replicate and extend Study 1 by adding reports
of performance-based goal pursuit. In Study 3 (n=403), we sought to replicate and extend
Study 2 by adding real-world performance attainment. The studies focused on both the
classroom and the workplace. Results: Trait and perceived environmental competitiveness
were shown to be positively related, and were shown to positively predict separate variance in
performance-approach and performance-avoidance goal pursuit. Perceived environmental
competitiveness and performance-based goal pursuit were shown to be sequential mediators
of the indirect relation between trait competitiveness and performance attainment.
Conclusions: These studies highlight the importance of attending to the interplay of the
person and the (perceived) situation in analyses of competitive striving.
Keywords: competitiveness, trait, perceived environmental, performance-approach goals,
performance-avoidance goals
In interpersonal competition, success is defined in terms of how one person does
relative to another person or persons (Deutsch, 1949). People vary in the degree to which they
desire to compete with others across time and situations – this is trait competitiveness. People
also vary in the degree to which they view situations and the people within them as
competitive – this is perceived environmental competitiveness. Both of these
conceptualizations of competitiveness are commonly studied (Murayama & Elliot, 2012), but
they are typically studied separately. In the present research, we study them together.
Three foci guide the present research. First, we investigate the link between trait
competitiveness and perceived environmental competitiveness, anticipating a positive relation
between individuals’ own competitive desires and the competitiveness they perceive in the
environment. Second, we investigate trait and perceived environmental competitiveness as
separate and sequential predictors of achievement goal pursuit. Third, we investigate trait and
perceived environmental competitiveness as separate and sequential predictors of
performance attainment through achievement goal pursuit. By studying trait and perceived
environmental competitiveness together, we hope to acquire a deeper and broader
understanding of competitive processes and their implications in achievement contexts.
Trait competitiveness and perceived environmental competitiveness
There is a long history in scientific psychology of theorists positing a positive
correlation between one’s own thoughts, feelings, and behavioral tendencies, and the
thoughts, feelings, and behavioral tendencies of others (Freud, 1915/1953; Allport, 1924; for
reviews, see Holmes, 1968; Krueger, 2007). The presumed reason for such self-other
correlations is social projection – inferring that others think, feel, and behave as we do
(Krueger, 2000). Social projection has been studied under a variety of different labels,
including false consensus, egocentrism, self-anchoring, and assumed similarity (Alicke,
Dunning, & Krueger, 1995; Cadinu & Rothbart, 1996; Cronbach & Meehl, 1955; Eply,
Keyser, Van Boven, & Gilovich, 2004; Ross, Greene, & House, 1977). It has been shown to
occur with regard to states, traits, attitudes, beliefs, preferences, behaviors, and demographic
characteristics, and with individuals (familiar and unfamiliar) and groups (ingroups and
outgroups) as the target (for reviews, see Mullen et al., 1985; Krueger, 2000). In addition to
social projection, various forms of self-stereotyping, in which individuals respond or infer
things about themselves on the basis of their understanding of others, can also contribute to
positive self-other correlations (Ames, 2004; Bazinger & Kühberger, 2012; van Veelen,
Otten, Cadinu, & Hansen, 2016).
Competitiveness has been examined in some existing research on positive self-other
correlations. This research may be divided into two types. First, and most prevalent, is
experiments testing the link between players’ own behavior or preferences to compete in a
game (e.g., Prisoner’s Dilema, Dictator, Decomposed) and players’ expectations of other
players’ behavior or preferences. Data from such experiments clearly show a positive
correlation between one’s own and one’s expectations of others’ competitiveness (Ames,
Weber, & Zou, 2012; Askoy & Weesie, 2012; Kelley & Stahelski, 1970; Kuhlman &
Wimberly, 1976; Iedema & Poppe, 1999; Miller & Holmes, 1975; Schlenker & Goldman,
1978; see also Kawada, Oettingen, Gollwitzer, & Bargh, 2004; cf. Maki & McClintock,
1983). These experiments are informative, but limited in that they focus on game-specific
behavior or preferences, they are situated in an artificial laboratory context, and they assess
competitiveness in relative (e.g., versus cooperativeness) and usually categorical terms.
Second, and less prevalent (but more relevant), is studies examining the link between
one’s dispositional competitiveness and one’s perception of the competitiveness of others or
of a particular environmental context. In Ross, Green, and House’s (1977) classic work on the
false consensus effect, participants categorized themselves as competitive or not competitive,
and then estimated the percentage of college students in general within each of these
categories. Descriptively, individuals who put themselves in the competitive category were
more likely to report that their fellow college students fit that category, although the trend did
not reach statistical significance (possibly due to the use of a single item and a crude
categorical approach). In a few articles in the industrial-organizational literature, trait
competitiveness and perceived environmental competitiveness in a job context have been
included, as well as the zero-order correlation among the measures (Brown, Cron, & Slocum,
1998; Fletcher, Major, & Davis, 2008; Fletcher & Nusbaum, 2010; Schrock, Hughes, Fu,
Richards, & Jones, 2014). Although the correlation between these two constructs was not the
main focus of any of these studies, the association was positive and significant in each study.
Given the peripheral nature of the correlation in these studies, none of them controlled for
plausible third variables; another limitation is that all of these studies were conducted within a
job context.
In the present research, we examine the relation between trait competitiveness and
perceived environmental competitiveness in both the classroom and the workplace. Trait
competitiveness is a dispositional construct, whereas perceived environmental
competitiveness is a situation-specific construct that emerges upon encountering a particular
context and the people within it. Persons bring trait competitiveness with them to each new
situation that they encounter. This trait competitiveness is presumed to guide their perception
of that situation, making competitive evaluative structures and competitive characteristics of
coworkers particularly salient and increasing the likelihood that ambiguous situations will be
interpreted as competitive. As such, trait competitiveness and perceived environmental
competitiveness are predicted to be positively related. Unlike the prior studies from the
industrial-organizational literature, our focus is on perceptions of school contexts, as well as
work contexts, and given the self-report nature of this aspect of the research, we control for
potential third variables that could produce a spurious positive correlation between trait
competitiveness and perceived environmental competitiveness.
Trait and perceived environmental competitiveness as predictors of performance-based
goals
Motivation encompasses the energization and direction of behavior, and a full account
of motivation needs to account for both (Elliot, 2006). In achievement settings, trait
competitiveness and perceived environmental competitiveness are similar in that they each
make social comparison salient and activate a general concern about one’s own competence
relative to that of others (Ames, 1992; Festinger, 1954; Tesser, 1988). These concerns
energize individuals and orient them to normative comparison, but they don’t provide specific
guidance on how to behave.
Achievement goals are competence-relevant aims that individuals adopt and pursue in
achievement situations. These goals serve the directional function of channeling competitive
concerns toward more concrete competence-relevant possibilities (Elliot, 1999). Competitive
concerns prompt goals focused on normative standards, and these other-focused goals may be
directed toward success (i.e. performance-approach goals) or away from failure (i.e.
performance-avoidance goals). In short, individuals are posited to regulate their trait- or
perception-based competitive concerns through the adoption and pursuit of performance-
approach and performance-avoidance goals. Several studies have provided empirical support
for links between trait competitiveness and both performance-approach and performance-
avoidance goals (Baranick, Barron, & Finney, 2007; 2010; Elliot, Kobeisy, Murayama et al.,
2016; Harackiewicz, Durik, Barron, Linnenbrink-Garcia, & Tauer, 2008; Murayama & Elliot,
2012; Pastor, Barron, Miller, & Davis, 2007; Tanaka & Yamauchi, 2004), and between
perceived environmental competitiveness and both performance-approach and performance-
avoidance goals (Jones, Davis, & Thomas, in press; Koul, Roy, & Lerdpornkulrat, 2012;
Lochbaum, Jean-Noel, Pinar, & Gilson, in press; Midgley & Urdan, 2001; Murayama &
Elliot, 2012; Papaioannou, Ampatzoglou, Kalogiannis, & Sagovits, 2008; Shih, 2007;
Wolters, 2004; cf. Bong, 2005). However, no study to date has examined trait and perceived
environmental competitiveness together as predictors of performance-based goals to test if
they account for separate variance.
Above we emphasized the similarities between trait and perceived environmental
competitiveness (e.g., both are grounded in social comparison, both evoke normative
concerns), but these constructs are also different in important ways. Trait competitiveness is a
general disposition that encompasses affective, cognitive, and behavioral tendencies regarding
normative success, whereas perceived environmental competitiveness is a situation-specific
belief that represents a cognitive appraisal about normative success. Furthermore, trait
competitiveness has an internal point of reference – me desiring to succeed versus others,
whereas perceived environmental competitiveness has an external point of reference – others
desiring to succeed versus me. As such, we posit that trait competitiveness and perceived
environmental competitiveness will be separate positive predictors of performance-approach
and performance-avoidance goals. Given that individuals bring trait competitiveness to the
achievement situations that they perceive, we additionally posit a sequential pattern whereby
trait competitiveness positively predicts perceived environmental competitiveness, which then
positively predicts performance-approach and performance-avoidance goal pursuit.
The link to performance attainment
If, as we anticipate, trait and perceived environmental competition predict goal pursuit,
the next step is to link these two aspects of competition to performance attainment via this
goal pursuit. Here we rely on the recently proffered opposing processes model of competition
for guidance (Murayama & Elliot, 2012). This model posits that competition has a null (or
negligible) direct relation with performance, but instead has an indirect relation through
achievement goals. Competition, be it trait or perceived environmental, is posited to prompt
the pursuit of performance-approach and performance-avoidance goals, and these goals are
posited to have an opposing influence on performance such that they cancel each other out
and produce the null direct relation. That is, the general energization of trait- or perception-
based competitive concerns have a positive or negative influence on performance outcomes
depending on whether individuals regulate these concerns by pursuing performance-approach
goals (positive influence) or performance-avoidance goals (negative influence; for meta-
analytic work on these goal-performance links, see Baranik, Stanley, Bynum, & Lance, 2010;
Burnette, O’Boyle, VanEpps, Pollack, & Finkel, 2013; Cellar et al., 2011; Huang, 2012;
Hulleman, Schrager, Bodman, & Harackiewicz, 2010; Lochbaum & Gottardy, 2015;
Murayama & Elliot, 2012; Van Yperen, Blaga, & Postmes, 2014; 2015; Withwein, Sparfeldt,
Pinquart, Wegerer, & Steinmayr, 2013).
This opposing processes model is examined in the present work in a unique way, with
the indirect relation of trait competitiveness and perceived environmental competitiveness
tested simultaneously. Neither trait nor perceived environmental competitiveness are posited
to have a direct influence on performance, rather both aspects of competitiveness are posited
to positively predict performance-approach and performance-avoidance goals, and these goals
are then posited to proximally predict performance; performance-approach goals are predicted
to have a positive influence on performance and performance-avoidance goals are predicted to
have a negative influence on performance.
Overview of the Present Research
The present research is comprised of three studies. Study 1 encompasses two sub-
studies – 1a and 1b – that focused on the anticipated positive relation between trait
competitiveness and perceived environmental competitiveness in a classroom context;
possible third variables were attended to in this study. Study 2 sought to replicate Study 1 in a
job context, and to extend it by including links to performance-approach and performance-
avoidance goal pursuit. Study 3 sought to replicate Study 2 in a classroom context and to
extend it by including the link to performance attainment. Conducting our research in both
classroom and work contexts afforded a test of the domain-generalizability of the focal
relations. Data in line with our hypotheses would be valuable, as they would both highlight
the functional difference between the two focal competitiveness constructs, and provide a
richer conceptual analysis of the nature of competitive striving than that currently available.
Study 1
Study 1 tested the predicted positive relation between trait competitiveness and
perceived environmental competitiveness, and considered several third variable explanations.
Study 1a sought to establish the focal relation, and to do so while controlling for two
indicators of social desirability, and one indicator of prior competence (cumulative GPA).
Study 1b sought to replicate Study 1a with multiple indicators of trait competitiveness, and to
do so while controlling for a different indicator of social desirability and a different indicator
of competence (general perceived competence). Social desirability could lead participants to
provide a high score on any positively valenced variable, and those with a high GPA or high
perceived competence could put a high value on any form of competitiveness and provide a
high score on any competitiveness-relevant variable accordingly; either or both of these
possibilities could produce a spurious positive correlation between trait and perceived
environmental competitiveness. Both Study 1a and 1b were conducted within a classroom
context.
Study 1a
Method
Participants and procedure. Three hundred and eighty-seven (268 female, 119 male)
U.S. undergraduates in a psychology class completed the study for extra course credit. This
sample size represents the maximum number of participants that could be recruited during the
designated data collection period. The mean age of participants was 19.29 years (SD = 1.42);
ethnicity was: 59% Caucasian, 5% African American, 26% Asian, 6% Hispanic, 4%
unspecified. Participants completed demographic information during the first class session,
trait competitiveness and perceived environmental competitiveness measures online later
during the first week of the semester, and social desirability measures online during the
second week of the semester. Prior cumulative GPA was obtained from school records.
The data for this study, as well as for Studies 1b and 3, were collected in the context of
larger projects1; none of the findings from the research herein have been presented in any
prior work. In this and all subsequent studies in this research, no manipulations were used, no
data exclusions were used, all variables analyzed are reported, and all data were collected
before any analyses were conducted.
Measures. Trait competitiveness was assessed with Spence and Helmreich’s (1983)
five item competitiveness subscale from the Work and Family Orientation (WOFO) measure
(e.g., “I enjoy working in situations involving competition with others”). Perceived
environmental competitiveness was assessed with Murayama and Elliot’s (2012) five item
measure (e.g., “In this class, it seems that students are competing with each other”).
Participants responded to both measures using a 1 (strongly disagree) to 5 (strongly agree)
scale; their responses were averaged to create the trait and a perceived environmental
competitiveness variables.
Two different measures of social desirability were used. One was Paulhus’s (1991)
twenty item self-deceptive enhancement (SDE) scale from the Balanced Inventory of
Desirable Responding (e.g., “My first impressions of people usually turn out to be right”).
Participants responded on a 1 (not true) to 7 (very true) scale, and received one point for each
extreme (i.e. 6-7) response; the sum of these points was totaled for the SDE measure. The
other was Anusic, Schimmack, Pinkus, and Lockwood’s (2009) four item measure of self-
evaluative bias. Participants provided self-ratings on four attributes (e.g., intelligence, facial
attractiveness, athletic ability, trivia knowledge) on a 1 (very bad) to 7 (very good) scale and
these ratings were averaged for the self-evaluative bias measure. Means, standard deviations,
reliabilities, and zero-order correlations are presented in Table 1.
Results
In this and all subsequent studies in this research, preliminary analyses using sex as a
control variable were conducted. Sex effects emerged in some studies, so this variable was
retained in all analyses in all studies for the sake of consistency.2 In each study, the full
information maximum likelihood method was used for analyses to avoid loss of information
due to missing data (Enders, 2006). All data were analyzed using the lavaan package
(Rosseel, 2012) for R (R core team, 2014).
Regressing perceived environmental competitiveness on trait competitiveness revealed a
significant positive relation between these variables, β = .28, z = 5.09, p < .001. This relation
remained significant in regression analyses controlling (separately) for self-deceptive
enhancement, β = .28, z = 5.06, p < .001, self-evaluative bias, β = .29, z = 5.29, p < .001, or
GPA, β = .28, z = 5.10, p < .001. Among these control variables, only self-deceptive
enhancement was significantly (negatively) related to perceived environmental
competitiveness in the class, β = -.16, z = -3.22, p = .001. Sex had no effect in these analyses
(all ps > .59).
Study 1b
Method
Participants and procedure. Three hundred and twenty-two students (118 male, 200
female, 4 missing values) in a psychology class in the U.S. completed the study for extra
credit. This sample size represents the maximum number of participants that could be
recruited during the designated data collection period. The mean age of participants was 19.39
(SD = 1.95); ethnicity was 57% Caucasian, 3% African American, 23% Asian, 7% Hispanic,
10% unspecified. Participants completed demographic information online after the first class
session, and completed all other measures online during the third week of the semester.
Measures. The same measures used in Study 1a for trait competitiveness and perceived
environmental competitiveness were used in this study. A second measure of trait
competitiveness was also used, Houston, Harris, McIntire, and Francis’ (2002) nine item
enjoyment of competition subscale from the Revised Competitiveness Index (e.g., “I enjoy
competing against an opponent”). Participants responded to all of the above measures on a 1
(strongly disagree) to 5 (strongly agree) scale; their responses were averaged to create the
trait and a perceived environmental competitiveness variables. The correlation between the
two trait competitiveness measures was r = .71, p < .001.
In this study, participants’ social desirability was assessed with the thirty-three item
Marlowe-Crowe Social Desirability scale (Crowe & Marlowe, 1960). Participants responded
true or false (e.g., “I never hesitate to go out of my way to help someone in trouble”), and
received one point for each socially desirable response; the sum of these points was totaled
for the social desirability measure. Another control variable was general perceived
competence, assessed using O’Brien and Epstein’ (1988) nine item Multidimensional Self-
Esteem Inventory (e.g., “I am usually able to learn new things very quickly”). Participants
responded on a 1 (strongly disagree/very seldom) to 5 (strongly agree/very often) scale; their
responses were averaged to create the general perceived competence variable. Means,
standard deviations, reliabilities, and zero-order correlations are presented in Table 2.
Results
Regressing perceived environmental competitiveness on the Spence and Helmreich
(1983) trait competitiveness measure revealed a significant positive relation between these
variables, β = .34, z = 7.01, p < .001. This relation remained significant in regression analyses
controlling (separately) for social desirability, β = .32, z = 6.00, p < .001, or general perceived
competence, β = .34, z = 6.76, p < .001. Neither of these control variables, nor sex,
significantly predicted perceived environmental competitiveness (all ps > .26).
Regressing perceived environmental competitiveness on the Houston et al. (2002) trait
competitiveness measure also revealed a significant positive relation between these variables,
β = .24, z = 4.75, p < .001. This relation remained significant in regression analyses
controlling (separately) for social desirability, β = .23, z = 4.39, p < .001, or general perceived
competence, β = .24, z = 4.30, p < .001. Among these control variables, only social
desirability was significantly (negatively) related to perceived environmental competitiveness,
β = -.13, z = -2.41, p = .016 (all other ps > .64).
Study 2
Study 2 sought to replicate and extend Study 1. First, we tested the predicted positive
relation between trait competitiveness and perceived environmental competitiveness
examined in Study1, but this time in a job context rather than a classroom context. Second,
we tested trait and perceived environmental competitiveness as separate and sequential
predictors of performance-based goals. We predicted that both trait and perceived
environmental competitiveness would positively predict independent variance in
performance-approach and performance-avoidance goal pursuit and, furthermore, that trait
competitiveness would positively predict perceived environmental competitiveness, which
would then positively predict the two performance-based goals.
Method
Participants and procedure. Four hundred and thirty-four individuals (219 male, 214
female, 1 missing value) completed the study on Amazon’s Mechanical Turk (MTurk) for
modest monetary compensation (.20 USD). An a priori power analysis revealed that 395
participants were needed to detect small-sized effects (f2 = .02) in a multiple linear regression
model with power of .80; we made sure to meet or exceed this target sample size before
stopping data collection. The mean age of participants was 32.33 (SD = 9.89); ethnicity was:
80% Caucasian, 5% African American, 9% Asian, 4% Hispanic, 2% unspecified.
Participation was restricted to persons in the U.S. with fewer than 1,000 MTurk tasks
completed and an approval rating of 95% or higher. Individuals needed to currently have a job
to participate; participants were employed in their job for a mean of 5.88 years (SD = 6.15).
Participants followed a web link through MTurk to access the study. They completed a
trait competitiveness measure, a job-specific perceived environmental competitiveness
measure, a job-specific achievement goal measure, and demographic information.
Measures. The same WOFO trait competitiveness measure used in Studies 1a and 1b
was used in this study. The same perceived environmental competitiveness measure used in
Studies 1a and 1b was used, but the focus was shifted to the job context (e.g., “In my job, it
seems that people are competing with each other”). Achievement goals were assessed with
Elliot and Murayama’s (2008) Achievement Goal Questionnaire-Revised (AGQ-R); the focus
was on the job context. Specifically, performance-approach goals (e.g., “In my job, my goal is
to perform better than the others”) and performance-avoidance goals (e.g., “In my job, my
goal is to avoid performing poorly compared to others”) were assessed with three items each
using a 1 (not at all true for me) to 5 (extremely true for me) scale. Participants’ responses
were averaged to create the performance-approach and performance-avoidance goal variables.
Means, standard deviations, reliabilities, and zero-order correlations are presented in Table 3.
Results
We tested the hypothesized model (see Figure 1) using path analysis with observed
variables. Model fit was not relevant, because the hypothesized model was fully saturated. In
this and the subsequent study, correlated errors were specified for performance-approach and
performance-avoidance goals, as recommended in multiple mediator models (Preacher &
Hayes, 2008; see Murayama & Elliot, 2012). As seen in the figure, the analysis revealed that
trait competitiveness was a positive predictor of perceived environmental competitiveness (β
= .28, z = 6.05, p < .001), which in turn was a positive predictor of both performance-
approach goals (β = .36, z = 8.70, p < .001) and performance-avoidance goals (β = .23, z =
4.71, p < .001). Trait competitiveness also remained a positive predictor of performance-
approach goals (β = .34, z = 8.03, p < .001) and performance-avoidance goals (β = .11, z =
2.29, p = .022).
Next we tested the indirect effect of trait competitiveness on each performance-based
goal via perceived environmental competitiveness using a bootstrap procedure (on 5,000
samples). The indirect effect of trait competitiveness on performance-approach goals through
perceived environmental competitiveness was significant, B = 0.14, 95% CI [0.08, 0.20], as
was the same indirect effect on performance-avoidance goals, B = 0.09, 95% CI [0.04, 0.15].
Sex was significantly related to perceived environmental competitiveness, β = .09, z = -
1.98, p = .048; women (M = 2.93, SE = .07) perceived less environmental competitiveness
than men (M = 3.12, SE = .07). Sex was also marginally significantly related to performance-
approach goals, β = -.08, z = -1.86, p = .063, but not to performance-avoidance goals (p >
.72); women (M = 3.57, SE = .06) tended to report more performance-approach goal pursuit
than men (M = 3.42, SE = .06).
Study 3
Study 3 sought to replicate and extend Study 2. First, we tested trait and perceived
environmental competitiveness as separate and sequential predictors of performance-approach
and performance-avoidance goals, as in Study 2, but this time in a classroom context rather
than a job context. Second, we included performance attainment as an outcome measure and
tested the full indirect path from trait competitiveness to perceived environmental
competitiveness to the two performance-based goals to performance attainment, with
performance-approach goals positively and performance-avoidance goals negatively
predicting performance.
Method
Participants. Four hundred and three (140 male, 260 female, 3 missing values) U.S.
undergraduates in a psychology class in the U.S. completed the study for extra course credit.
This sample size represents the maximum number of participants that could be recruited
during the designated data collection period. The mean age of participants was 19.41 (SD =
1.36); ethnicity was: 56% Caucasian, 7% African American, 25% Asian, 5% Hispanic, 7%
unspecified.
Participants completed demographic information online during the first day of class, the
trait competitiveness and perceived environmental competitiveness measures online during
the second week of the semester, and a class-specific achievement goal measure online during
the third week of the semester. The course exams were given on the sixth, twelfth, and
sixteenth weeks of the semester; exam performance data were acquired from the course
professor.
Measures. The same measures used in Study 1a for trait competitiveness and perceived
environmental competitiveness were used in this study. Achievement goals were assessed
with the AGQ-R used in Study 2, but the focus was shifted to the classroom context.
Specifically, performance-approach goals (e.g., “My goal is to perform better than the other
students”) and performance-avoidance goals (e.g., “My goal is to avoid performing poorly
compared to others”) were assessed with three items each using a 1 (not at all true for me) to
7 (extremely true for me) scale. A measure of exam performance was created by summing the
scores of each of three 100 point course exams; the exams were comprised of multiple choice,
fill in the blank, and short answer questions. Means, standard deviations, reliabilities, and
zero-order correlations are presented in Table 4.
Results
We tested the hypothesized model (see Figure 2) using path analysis with observed
variables. The model was a good fit to the data, χ2(2) = 3.87, p = .144, CFI = .994, TLI =
.960, RMSEA = .048. As seen in Figure 2, the analysis revealed that trait competitiveness was
a positive predictor of perceived environmental competitiveness (β = .26, z = 5.26, p < .001),
which in turn was a positive predictor of both performance-approach goals (marginal, β = .09,
z = 1.91, p = .056) and performance-avoidance goals (β = .18, z = 3.62, p = .001). Trait
competitiveness also remained a positive predictor of performance-approach goals (β = .48, z
= 10.77, p < .001) and performance-avoidance goals (β = .20, z = 3.87, p < .001). The two
performance-based goals were, in turn, predictors of exam performance: performance-
approach goals were a positive predictor (β = .13, z = 2.04, p = .041), whereas performance-
avoidance goals were a negative predictor (β = -.13, z = -2.13, p = .033).
Next, we tested the indirect effect of trait competitiveness on each performance-based
goal via perceived environmental competitiveness using a bootstrap procedure (on 5,000
samples). The indirect effect of trait competitiveness on performance-approach goals through
perceived environmental competitiveness was significant, B = 0.03, 95% CI [0.00, 0.07], as
was the same indirect effect on performance-avoidance goals, B = 0.09, 95% CI [0.03, 0.15].
Then, we tested the indirect effect of trait competitiveness and perceived environmental
competitiveness on exam performance via the two achievement goals (i.e. the opposing
processes model of competition). The results indicated that the indirect effect of trait
competitiveness on exam performance was mediated by both performance-approach goals
(positively), B = 2.97, 95% CI [0.35, 5.81], and performance-avoidance goals (negatively), B
= -1.24, 95% CI [-2.76, -0.28]. The results also indicated that the indirect effect of perceived
environmental competitiveness on exam performance was mediated by both performance-
approach goals (positively), B = 0.50, 95% CI [.01, 1.50], and performance-avoidance goals
(negatively), B = -1.09, 95% CI [-2.59, -0.20]. Finally, we tested the path linking trait
competitiveness to exam performance through perceived environmental competitiveness and
the performance-based goals. The results indicated that this indirect effect was significant via
performance-approach goals (positive), B = 0.14, 95% CI [0.00, 0.45] and performance-
avoidance goals (negative), B = -0.30, 95% CI [-0.79, -0.07]3.
Sex was significantly related to performance-approach goals, β = -.20, z = -4.61, p <
.001, but not to performance-avoidance goals (p > .10); women (M = 5.49, SE =.07) reported
more performance-approach goals than men (M = 4.98, SE =.09). Sex was also significantly
related to exam performance, β = -.17, z = -3.34, p = .001; women (M = 240.14, SE = 2.54)
scored higher than men (M = 226.12, SE = 3.45). Sex was not related to perceived
environmental competitiveness (p > .19).
General Discussion
Interpersonal competition can be conceptualized as a characteristic of the person (trait
competitiveness) and as a characteristic of the subjective situation (perceived environmental
competitiveness). These conceptualizations are usually studied separately, but in the present
research we investigated them together. Three primary findings were observed. First, we
observed a positive relation between trait competitiveness and perceived environmental
competitiveness, both in the classroom and in the workplace, and both alone and while
controlling for various third variable possibilities. Second, we observed that trait
competitiveness and perceived environmental competitiveness were unique positive
predictors of performance-approach and performance-avoidance goals, and that trait
competitiveness exerted its influence on these performance-based goals in part via perceived
environmental competitiveness; these findings were observed in both the classroom and the
workplace. Third, we observed that trait and perceived environmental competitiveness had
both separate and sequential influences on performance attainment in the classroom through
the opposing processes of performance-approach and performance-avoidance goal pursuit.
Given that trait competitiveness is a dispositional characteristic and, therefore,
presumed to be consistent across time and situations, the most straightforward way to
interpret the positive correlation between trait competitiveness and perceived environmental
competitiveness is in terms of social projection. That is, highly competitive individuals are
thought to view the achievement situations that they enter through the lens of their own
competitive desires, and to construe more competitiveness in situations than the situations
themselves actually warrant. This social projection is important, because it is likely to create a
competitive ethos in the environment through evocative dynamic interactionism (Buss, 1987).
For example, a highly competitive person may enter an achievement situation, construe it as
highly competitive, and behave accordingly, which may lead others in that situation to
respond with competitive behavior in reciprocal fashion. In this way, competitiveness
projection can be self-fulfilling, in that it can create a competitive ethos in the classroom,
workplace, or ballfield that would not otherwise be present.
Trait competitiveness is a particular type of trait – a motivational trait representing the
general appetitive desire for competence relative to others. As such, our work fits nicely
within the nascent, but intriguing body of work on motivation projection. This work has
focused primarily on the projection of situation-specific goals (Ahn, Oettingen, & Gollwitzer,
2015; Berthold, Mummendey, Kessler, Luecke, & Schubert, 2012; Kawada et al., 2004;
Maner et al., 2005). However, Woltin and Yzerbyt (2015) recently documented the projection
of general motivational orientations, namely promotion and prevention regulatory foci. Our
work suggests that this projection of general motivational orientations extends beyond
dispositional regulatory foci to dispositional competitiveness.
Another key finding in our research is that trait and perceived environmental
competitiveness are separate positive predictors of performance-approach and performance-
avoidance goals. Research on the antecedents of achievement goals has tended to emphasize
either person-based (Baranik et al., 2010; Elliot & Church, 1997; Tanaka & Yamuchi, 2001)
or environmentally-based (Ames, 1992; Maehr & Midgley, 1996; Meece, Anderman, &
Anderman, 2006) factors. The present results nicely illustrate that achievement goal pursuit is
a joint function of both the person and the (perceived) situation (see also Elliot, 1999), and
that both need consideration for a full account of achievement goal pursuit. Furthermore, our
results not only show the separate predictive utility of trait and perceived environmental
competitiveness, but also suggest their sequential predictive utility – perceived environmental
competitiveness partially explained the indirect relation between trait competitiveness and
each of the performance-based goals. Importantly, the relation between trait competitiveness
and each performance-based goal remained significant with perceived environmental
competitiveness accounted for, indicating that other variables are operative in this relation as
well. Likely candidates include challenge and threat construals or responses (Elliot & Reis,
2003; Jamieson, in press) and emotions such as eagerness and anxiety (Carver & Scheier, in
press; Elliot & McGregor, 1999); challenge and eagerness would likely account for the link to
performance-approach goals, whereas threat and anxiety would likely account for the link to
performance-avoidance goals.
The final key finding in our research is that the separate and sequential predictive utility
of trait and perceived environmental competitiveness influences downstream performance
attainment through performance-based goal pursuit. This aspect of our findings nicely links
participants’ self-reports of competitiveness and goal pursuit to an objective indicator of
achievement in an actual achievement setting. It also enriches the recently proffered opposing
processes model of competition (Murayama & Elliot, 2012) by showing that the indirect
influence of both trait and perceived environmental competitiveness runs through
performance-approach and performance-avoidance goals, which are positive and negative
predictors of performance, respectively.
A critical “take away” message from this (enriched) opposing processes model is that
competition, whether it be operationalized as trait competitiveness or perceived
environmental competitiveness, can have positive implications for performance if
performance-approach goals are pursued, but can have negative implications for performance
if performance-avoidance goals are pursued. As such, a critical question for subsequent
research is to identify moderators of the link between (trait and perceived environmental)
competiveness and each form of goal pursuit. Perceived competence is one promising
candidate. It seems likely that for those high in trait or perceived environmental
competitiveness, high perceived competence would prompt the pursuit of performance-
approach goals, and low perceived competence would prompt the pursuit of performance-
avoidance goals. Beliefs about failure is another promising candidate. It seems likely that for
those high in trait or perceived environmental competitiveness, a belief that failure is simply
an indicator of what one needs to work on would prompt the pursuit performance-approach
goals, and a belief that failure is an immutable indicator of incompetence would prompt the
pursuit of performance-avoidance goals. These moderator questions are of both theoretical
and practical importance, placing them high on the research agenda.
Several other promising avenues for future research may also be identified. First, we
focused on the form of trait competitiveness most commonly studied in the literature –
individual differences in the desire for interpersonal normative competence. Other forms of
trait competitiveness may also be considered in conjunction with perceived environmental
competitiveness, such as intraindividual competitiveness (Jury, Smeding, & Darnon, 2015),
hypercompetitiveness (Ryckman, Hammer, Kaczor, & Gold, 1990), constructive
competitiveness (Tjosvold, Johnson, & Johnson, Sun, 2003), and even related constructs such
as social dominance orientation (Sidanius & Pratto, 2001). Furthermore, given research
showing that people tend to underestimate their use of social comparison information (Van
Yperen & Leander, 2014), it would be interesting to examine whether people also tend to
underestimate their level of these types of dispositional competitive tendencies. Second, we
conceptualized and operationalized perceived environmental competitiveness in terms of both
perceptions of other individuals (whether they are competitive or not) and perceptions of the
structure of the achievement situation (whether it is designed to foster competition or not). It
would be interesting to assess these components of perceived environmental competitiveness
individually to see if they have the same or different links to trait competitiveness on the one
hand and goal pursuit on the other. In addition, it would be valuable to investigate the extent
to which people’s perceptions of the competitive environments they encounter are grounded
in actual (consensually reported) competitiveness, as well as their (projected) dispositional
tendencies. Third, in classic research, McClelland and colleagues (McClelland, 1961;
McClelland & Winter, 1969) extended the study of individual level psychological processes
regarding achievement motivation to the country level (see also Cheung & Chan, 2012; Van
de Vliert, Kluwer, & Lynn, 2000). It may be informative to emulate this innovative approach
in future work, to see if the “self-other” correlation, the “separate and sequential” influences,
and the “opposing processes” findings of the present research extend to the country level.
Limitations of our research may be identified and used as an impetus and guide for
subsequent empirical work. One limitation is that our studies are correlational in nature,
thereby precluding definitive causal and directional conclusions. Although we believe that
social projection is the most straightforward way to interpret the observed positive correlation
between trait and perceived environmental competitiveness, other processes such as self-
stereotyping (Ames, 2004; Kruger, 2007) may be implicated as well. For example, one may
observe another person being highly competitive in an achievement situation, may desire to
be like that person, and may therefore rate oneself as high in trait competitiveness, thereby
contributing to the observed positive correlation. Such inferential processes would need to
take place repeatedly over time and situations to eventuate in a true shift in dispositional
competitiveness, and even in this instance trait and perceived environmental competitiveness
would undoubtedly mutually influence each other (i.e. the perception would influence the
trait, which in turn would influence the perception). Longitudinal research over an extended
time period is needed to investigate this possibility of reciprocal causality. Another limitation
of our research is that our studies were conducted in the U.S., so generality of the findings to
other countries is unknown. Likewise, although our studies focused on two different types of
achievement domains – the classroom and the workplace – the extent to which our findings
would be the same or different in other achievement domains (e.g., the ballfield, hobbies) is
not clear. Accordingly, subsequent research would do well to examine the generalizability of
our findings to other countries and domains.
In conclusion, by studying trait and perceived environmental competitiveness together,
we believe that we have acquired a deeper and broader understanding of competition and its
implications in achievement contexts. Our work can be seen as emerging from and consistent
with the rich Lewinian context of person x situation analyses of behavior (Lewin, 1935), with
the person variable being a self-attributed dispositional characteristic and the situation
variable being a perception of the social environment. We documented, in a way that Lewin
would certainly have appreciated, both the interrelation between and the independent
influence of a person variable and a situation variable (Lewin, 1946). Further deepening the
Lewinian roots, we examined these person and situation relations with regard to achievement
motivation, a content area central to Lewin’s conceptual interest (Lewin, Dembo, Festigner, &
Sears, 1944). Competitiveness is basic to human psychology and ubiquitous in contemporary
society, and it is important to take into consideration the interplay of person- and situation-
based factors in theoretical and empirical work on competitive striving.
Footnotes
1. The following articles are relevant to this point about published data from larger projects:
Study 1a (Elliot, Murayama, Kobeisy, & Lichtenfeld, 2015, Study 1), Study 1b (Elliot et al.,
2015, Study 2; Weidman, Tracy, & Elliot, 2016, Study 2a), and Study 3 (Elliot, Al-
Dhobaiban, Murayama et al., 2016, Study 2b; Goclowska et al., 2016, Study 2; Korn & Elliot,
2016, Study 3; Weidman et al., 2016, Study 2b).
2. When not accounting for sex, some results are a bit different in Study 3. The link between
perceived environmental competitiveness and performance-approach goal endorsement was
not significant, β = .07, z = 1.58, p = .12. Regarding indirect effects, that linking trait
competitiveness to performance-approach goals by perceived environmental competitiveness
was not significant, B = 0.03, 95% CI [-0.00, 0.07]. In addition, the indirect effect linking
perceived environmental competitiveness to performance through performance-approach
goals, B = 0.52, 95% CI [-0.09, 1.56], and that linking trait competitiveness to performance
through perceived environmental competitiveness and performance-approach goals, B = 0.15,
95% CI [-0.01, 0.46] were not significant.
3. In addition to the main analyses conducted with achievement goal focused on the class as a
whole, we conducted ancillary analyses with exam-specific achievement goals. These exam
goals were measured at three different times (before each exam) and were averaged to
compute a single measure.
As in the main analyses, we tested the hypothesized model using path analysis with
observed variables. The model was a good fit to the data, χ2(2) = 3.86, p = .145, CFI = .996,
TLI = .969, RMSEA = .048. As in the main analyses, trait competitiveness was a positive
predictor of perceived environmental competitiveness (β = .26, z = 5.32, p < .001), which in
turn was a positive predictor of both performance-approach goals (marginal, β = .08, z = 1.74,
p = .081) and performance-avoidance goals (β = .11, z = 2.15, p = .031). Trait competitiveness
also remained a positive predictor of performance-approach goals (β = .42, z = 9.07, p < .001)
and performance-avoidance goals (β = .21, z = 4.13, p < .001). The two performance-based
goals were, in turn, predictors of exam performance: performance-approach goals were a
positive predictor (β = .25, z = 3.67, p < .001), whereas performance-avoidance goals were a
negative predictor (β = -.24, z = -3.46, p < .001).
Next, we tested the indirect effects using a bootstrap procedure (on 5,000 samples). The
indirect effect of trait competitiveness through perceived environmental competitiveness was
not significant for performance-approach goals, B = 0.03, 95% CI [-0.00, 0.06], and was
significant for performance-avoidance goals, B = 0.05, 95% CI [0.00, 0.10]. The indirect
effect of trait competitiveness on exam performance was mediated by both performance-
approach goals (positively), B = 5.30, 95% CI [2.54, 8.42], and performance-avoidance goals
(negatively), B = -2.47, 95% CI [-4.76, -0.97]. The indirect effect of perceived environmental
competitiveness on exam performance was mediated by both performance-approach goals
(positively), B = 0.96, 95% CI [.01, 2.48], and performance-avoidance goals (negatively), B =
-1.22, 95% CI [-2.87, -0.22]. Finally, the path linking trait competitiveness to exam
performance through perceived environmental competitiveness and performance-based goals
was significant via performance-approach goals (positive), B = 0.27, 95% CI [0.01, 0.75] and
performance-avoidance goals (negative), B = -0.34, 95% CI [-0.88, -0.06].
Sex was significantly related to performance-approach goals, β = -.17, z = -3.74, p <
.001, and performance-avoidance goals, β = -.11, z = -2.27, p = .023; women (MPAP = 5.47,
SEPAP =.07; MPAV = 5.09, SEPAV =.09) reported more performance-approach and performance-
avoidance goals than men (MPAP = 5.07, SEPAP =.09; MPAV = 4.77, SEPAV =.12). Sex was also
significantly related to exam performance, β = -.17, z = -3.45, p = .001; women (M = 240.23,
SE = 2.51) scored higher than men (M = 225.73, SE = 3.39). Sex was not related to perceived
environmental competitiveness (p > .19).
When not accounting for sex, indirect effects, that linking trait competitiveness to
performance-avoidance goals by perceived environmental competitiveness was not
significant, B = 0.05, 95% CI [-0.00, 0.09]. In addition, the indirect effect linking perceived
environmental competitiveness to exam performance through performance-approach goals, B
= 0.90, 95% CI [-.27, 2.30] and that linking trait competitiveness to exam performance
through perceived environmental competitiveness and performance-approach goals, B = 0.25,
95% CI [-0.06, 0.70] were not significant.
Declaration of Competing Interests
The authors declared no potential conflicts of interest with respect to the research, authorship,
and/or publication of this article.
Funding
The authors received no financial support for the research, authorship, and/or publication of
this article.
Acknowledgements
We are grateful to the following individuals for providing feedback on earlier drafts of this
work: Jon Gordils, Emily Hangen, and Christopher Thorstenson.
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Table 1
Means, standard deviations, reliabilities, and zero-order correlations for Study 1a
M SD 1*** 2*** 3*** 4*** 5***
1. Trait competitiveness .81 3.56 .85 1***
2. Perceived environmental competitiveness .86 2.82 .90 .28*** 1***
3. Self-deceptive enhancement .74 4.46 3.14 .02*** -.16*** 1***
4. Self-evaluative bias .53 4.68 .88 .24*** .01*** .31*** 1***
5. GPA __ 3.28 .54 -.00*** -.06*** -.13*** -.10*** 1***
6. Sex __ __ __ .15*** .05*** .12*** .20*** .03***
Note: GPA: Grade Point Average. Sex is coded -1 for female and + 1 for male. * p < .05, ** p
< .01, *** p < .001
Table 2
Means, standard deviations, reliabilities, and zero-order correlations for Study 1b
M SD 1*** 2*** 3*** 4*** 5***
1. Trait competitiveness (WOFO) .82 3.60 .83 1***
2. Perceived environmental competitiveness .89 2.28 .97 .34*** 1***
3. Trait competitiveness (RCI) .92 3.33 .86 .71*** .24*** 1***
5. Social desirability .75 15.92 5.14 -.27*** -.15*** -.11*** 1***
5. General perceived competence .85 3.49 .64 .19*** .10t** .29*** .26*** 1***
6. Sex __ __ __ .09*** .03*** .17*** .05*** .02***
Note: Sex is coded - 1 for female and + 1 for male. WOFO = Work and Family Orientation;
RCI = Relative Competitiveness Index. t p < .10, * p < .05, ** p < .01, *** p < .001
Table 3
Means, standard deviations, reliability, and zero-order correlations for Study 2
M SD 1*** 2*** 3*** 4***
1. Trait competitiveness .79 3.69 0.78 1***
2. Perceived environmental
competitiveness .89 3.03 1.06 .29*** 1***
3. Performance-approach goals .86 3.49 1.05 .43*** .45*** 1***
4. Performance-avoidance goals .91 3.90 1.13 .17*** .26*** .49*** 1***
5. Sex __ __ __ .09t** .11*** -.01*** .02***
Note: Sex is coded - 1 for female and + 1 for male. t p < .10, * p < .05, *** p < .001
Table 4
Means, standard deviations, reliabilities, and zero-order correlations for Study 3
M SD 1*** 2*** 3*** 4*** 5***
1. Trait competitiveness .83 3.51 .83 1***
2. Perceived environmental competitiveness .87 2.37 .88 .27*** 1***
3. Performance-approach goals .86 5.31 1.23 .49*** .20*** 1***
4. Performance-avoidance goals .89 4.82 1.55 .24*** .23*** .56*** 1***
5. Exam performance .85 234.85 40.88 .05*** -.09t** .08*** -.05*** 1***
6. Sex __ __ __ .08*** .09t** -.16*** -.05*** -.18***
Note: Sex is coded -1 for female and + 1 for male. t p < .10, ** p < .01, *** p < .001
Trait
competitiveness
Perceived
environmental
competitiveness
Performance-
approach goals
Performance-
avoidance goals
.34***
.23***
.28***
.11*
.36***
Figure 1. Path model for Study 2. * p < .05, *** p < .001. Sex effects are excluded for
presentation clarity.
Trait
competitiveness
Perceived
environmental
competitiveness
Performance-
approach goals
Performance-
avoidance goals
.48***
.18**
.26***
.20***
.09t
Performance
.13*
-.13*
Figure 2. Path model for Study 3. t p = .056, ** p < .01, *** p < .001. Sex effects are excluded
for presentation clarity.